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[/] [openrisc/] [trunk/] [or1ksim/] [libtoplevel.c] - Rev 42
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/* libtoplevel.c -- Top level simulator library source file Copyright (C) 1999 Damjan Lampret, lampret@opencores.org Copyright (C) 2008 Embecosm Limited Contributor Jeremy Bennett <jeremy.bennett@embecosm.com> This file is part of OpenRISC 1000 Architectural Simulator. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see <http://www.gnu.org/licenses/>. */ /* This program is commented throughout in a fashion suitable for processing with Doxygen. */ /* Autoconf and/or portability configuration */ #include "config.h" /* System includes */ #include <stdlib.h> #include <unistd.h> #include <signal.h> /* Package includes */ #include "or1ksim.h" #include "sim-config.h" #include "toplevel-support.h" #include "sched.h" #include "execute.h" #include "pic.h" /*---------------------------------------------------------------------------*/ /*!Initialize the simulator. Allows specification of an (optional) config file and an image file. Builds up dummy argc/argv to pass to the existing argument parser. @param[in] config_file Or1ksim configuration file name @param[in] image_file The program image to execute @param[in] class_ptr Pointer to a C++ class instance (for use when called by C++) @param[in] upr Upcall routine for reads @param[in] upw Upcall routine for writes @return 0 on success and an error code on failure */ /*---------------------------------------------------------------------------*/ int or1ksim_init (const char *config_file, const char *image_file, void *class_ptr, unsigned long int (*upr) (void *class_ptr, unsigned long int addr, unsigned long int mask), void (*upw) (void *class_ptr, unsigned long int addr, unsigned long int mask, unsigned long int wdata)) { int dummy_argc; char *dummy_argv[4]; /* Dummy argv array. Varies depending on whether an image file is specified. */ dummy_argv[0] = "libsim"; dummy_argv[1] = "-f"; dummy_argv[2] = (char *) ((NULL != config_file) ? config_file : "sim.cfg"); dummy_argv[3] = (char *) image_file; dummy_argc = (NULL == image_file) ? 3 : 4; /* Initialization copied from existing main() */ srand (getpid ()); init_defconfig (); reg_config_secs (); if (parse_args (dummy_argc, dummy_argv)) { return OR1KSIM_RC_BADINIT; } config.sim.profile = 0; /* No profiling */ config.sim.mprofile = 0; config.ext.class_ptr = class_ptr; /* SystemC linkage */ config.ext.read_up = upr; config.ext.write_up = upw; print_config (); /* Will go eventually */ signal (SIGINT, ctrl_c); /* Not sure we want this really */ runtime.sim.hush = 1; /* Not sure if this is needed */ do_stats = config.cpu.superscalar || config.cpu.dependstats || config.sim.history || config.sim.exe_log; sim_init (); runtime.sim.ext_int_set = 0; /* No interrupts pending to be set */ runtime.sim.ext_int_clr = 0; /* No interrupts pending to be cleared */ return OR1KSIM_RC_OK; } /* or1ksim_init() */ /*---------------------------------------------------------------------------*/ /*!Run the simulator The argument is a time in seconds, which is converted to a number of cycles, if positive. A negative value means "run for ever". The semantics are that the duration for which the run may occur may be changed mid-run by a call to or1ksim_reset_duration(). This is to allow for the upcalls to generic components adding time, and reducing the time permitted for ISS execution before synchronization of the parent SystemC wrapper. This is over-ridden if the call was for a negative duration, which means run forever! Uses a simplified version of the old main program loop. Returns success if the requested number of cycles were run and an error code otherwise. @param[in] duration Time to execute for (seconds) @return OR1KSIM_RC_OK if we run to completion, OR1KSIM_RC_BRKPT if we hit a breakpoint (not clear how this can be set without CLI access) */ /*---------------------------------------------------------------------------*/ int or1ksim_run (double duration) { const int num_ints = sizeof (runtime.sim.ext_int_set) * 8; or1ksim_reset_duration (duration); /* Loop until we have done enough cycles (or forever if we had a negative duration) */ while (duration < 0.0 || (runtime.sim.cycles < runtime.sim.end_cycles)) { long long int time_start = runtime.sim.cycles; int i; /* Interrupt # */ /* Each cycle has counter of mem_cycles; this value is joined with cycles * at the end of the cycle; no sim originated memory accesses should be * performed inbetween. */ runtime.sim.mem_cycles = 0; if (cpu_clock ()) { return OR1KSIM_RC_BRKPT; /* Hit a breakpoint */ } runtime.sim.cycles += runtime.sim.mem_cycles; /* Take any external interrupts. Outer test is for the common case for efficiency. */ if (0 != runtime.sim.ext_int_set) { for (i = 0; i < num_ints; i++) { if (0x1 == ((runtime.sim.ext_int_set >> i) & 0x1)) { report_interrupt (i); runtime.sim.ext_int_set &= ~(1 << i); /* Clear req flag */ } } } /* Clear any interrupts as requested. For edge triggered interrupts this will happen in the same cycle. For level triggered, it must be an explicit call. */ if (0 != runtime.sim.ext_int_clr) { for (i = 0; i < num_ints; i++) { /* Only clear interrupts that have been explicitly cleared */ if(0x1 == ((runtime.sim.ext_int_clr >> i) & 0x1)) { clear_interrupt(i); runtime.sim.ext_int_clr &= ~(1 << i); /* Clear clr flag */ } } } /* Update the scheduler queue */ scheduler.job_queue->time -= (runtime.sim.cycles - time_start); if (scheduler.job_queue->time <= 0) { do_scheduler (); } } return OR1KSIM_RC_OK; } /* or1ksim_run() */ /*---------------------------------------------------------------------------*/ /*!Reset the run-time simulation end point Reset the time for which the simulation should run to the specified duration from NOW (i.e. NOT from when the run started). @param[in] duration Time to run for in seconds */ /*---------------------------------------------------------------------------*/ void or1ksim_reset_duration (double duration) { runtime.sim.end_cycles = runtime.sim.cycles + (long long int) (duration * 1.0e12 / (double) config.sim.clkcycle_ps); } /* or1ksim_reset_duration() */ /*---------------------------------------------------------------------------*/ /*!Return time executed so far Internal utility to return the time executed so far. Note that this is a re-entrant routine. @return Time executed so far in seconds */ /*---------------------------------------------------------------------------*/ static double internal_or1ksim_time () { return (double) runtime.sim.cycles * (double) config.sim.clkcycle_ps / 1.0e12; } // or1ksim_cycle_count() /*---------------------------------------------------------------------------*/ /*!Mark a time point in the simulation Sets the internal parameter recording this point in the simulation */ /*---------------------------------------------------------------------------*/ void or1ksim_set_time_point () { runtime.sim.time_point = internal_or1ksim_time (); } /* or1ksim_set_time_point() */ /*---------------------------------------------------------------------------*/ /*!Return the time since the time point was set Get the value from the internal parameter */ /*---------------------------------------------------------------------------*/ double or1ksim_get_time_period () { return internal_or1ksim_time () - runtime.sim.time_point; } /* or1ksim_get_time_period() */ /*---------------------------------------------------------------------------*/ /*!Return the endianism of the model Note that this is a re-entrant routine. @return 1 if the model is little endian, 0 otherwise. */ /*---------------------------------------------------------------------------*/ int or1ksim_is_le () { #ifdef OR32_BIG_ENDIAN return 0; #else return 1; #endif } /* or1ksim_is_le() */ /*---------------------------------------------------------------------------*/ /*!Return the clock rate Value is part of the configuration @return Clock rate in Hz. */ /*---------------------------------------------------------------------------*/ unsigned long int or1ksim_clock_rate () { return (unsigned long int) (1000000000000ULL / (unsigned long long int) (config.sim. clkcycle_ps)); } /* or1ksim_clock_rate() */ /*---------------------------------------------------------------------------*/ /*!Trigger an edge triggered interrupt This function is appropriate for edge triggered interrupts, which are taken and then immediately cleared. @note There is no check that the specified interrupt number is reasonable (i.e. <= 31). @param[in] i The interrupt number */ /*---------------------------------------------------------------------------*/ void or1ksim_interrupt (int i) { if (!config.pic.edge_trigger) { fprintf (stderr, "Warning: or1ksim_interrupt should not be used for " "edge triggered interrupts. Ignored\n"); } else { runtime.sim.ext_int_set |= 1 << i; // Better not be > 31! runtime.sim.ext_int_clr |= 1 << i; // Better not be > 31! } } /* or1ksim_interrupt() */ /*---------------------------------------------------------------------------*/ /*!Set a level triggered interrupt This function is appropriate for level triggered interrupts, which must be explicitly cleared in a separate call. @note There is no check that the specified interrupt number is reasonable (i.e. <= 31). @param[in] i The interrupt number to set */ /*---------------------------------------------------------------------------*/ void or1ksim_interrupt_set (int i) { if (config.pic.edge_trigger) { fprintf (stderr, "Warning: or1ksim_interrupt_set should not be used for " "level triggered interrupts. Ignored\n"); } else { runtime.sim.ext_int_set |= 1 << i; // Better not be > 31! } } /* or1ksim_interrupt() */ /*---------------------------------------------------------------------------*/ /*!Clear a level triggered interrupt This function is appropriate for level triggered interrupts, which must be explicitly set first in a separate call. @note There is no check that the specified interrupt number is reasonable (i.e. <= 31). @param[in] i The interrupt number to clear */ /*---------------------------------------------------------------------------*/ void or1ksim_interrupt_clear (int i) { if (config.pic.edge_trigger) { fprintf (stderr, "Warning: or1ksim_interrupt_clear should not be used " "for level triggered interrupts. Ignored\n"); } else { runtime.sim.ext_int_clr |= 1 << i; // Better not be > 31! } } /* or1ksim_interrupt() */
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